2018
DOI: 10.1101/379966
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Adaptive introgression: an untapped evolutionary mechanism for crop adaptation

Abstract: 29Global environmental changes strongly impact wild and domesticated species biology and their 30 associated ecosystem services. For crops, global warming has led to significant changes in terms of 31 phenology and/or yield. To respond to the agricultural challenges of this century, there is a strong 32 need for harnessing the genetic variability of crops and adapting them to new conditions. Gene 33 flow, from either the same species or a different species, may be an immediate primary source to 34 widen geneti… Show more

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Cited by 36 publications
(58 citation statements)
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References 149 publications
(199 reference statements)
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“…Differentiation of early-and late-owering morphotypes may have occurred after the domestication of pearl millet (at least 4,900 years ago), as a consequence of a center of specialization developing across the Sahel belt. This hypothesis is supported by previous reports of migrations, exchanges and gene ow that led to wider genetic diversity as an adaptive mechanism (3,17). These ndings and this assumption mean the clusters identi ed among the early-owering Souna and late-owering Sanio are genuine heterotic groups that can be used to breed for earliness and biomass, respectively.…”
Section: Discussionsupporting
confidence: 80%
“…Differentiation of early-and late-owering morphotypes may have occurred after the domestication of pearl millet (at least 4,900 years ago), as a consequence of a center of specialization developing across the Sahel belt. This hypothesis is supported by previous reports of migrations, exchanges and gene ow that led to wider genetic diversity as an adaptive mechanism (3,17). These ndings and this assumption mean the clusters identi ed among the early-owering Souna and late-owering Sanio are genuine heterotic groups that can be used to breed for earliness and biomass, respectively.…”
Section: Discussionsupporting
confidence: 80%
“…Differentiation of early-and late-owering millets may have occurred after the domestication of pearl millet, as a consequence of a center of specialization across the Sahel belt. This assumption is supported by previous observations reporting migrations, exchanges and gene ow that led to a wider genetic diversity as an adaptive mechanism (3,17). These ndings and assumption make the identi ed subgroups within early-owering Souna and late-owering Sanio genuine heterotic groups for breeding for earliness or biomass, respectively.…”
Section: Discussionsupporting
confidence: 79%
“…An alternative explanation for the origin of these regions is adaptive introgression from divergent taxa, which was recently shown to explain the existence of large, divergent haplotypes that underlie ecotypic adaptation in sunflowers 50 , and characterized in a wide-range of other species 51 Regardless of their origin, the existence of these regions in C. elegans has important implications for how we understand the genetic and genomic consequences of selfing. It has been proposed that the evolution of selfing represents an evolutionary "dead-end", whereby the reduction in genetic diversity, and therefore adaptive potential, of a species will eventually lead to extinction 52 .…”
Section: Discussionmentioning
confidence: 99%